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Literature DB >> 33567640

The Application of Nanobody in CAR-T Therapy.

Chaolemeng Bao¹, Quanli Gao², Lin-Lin Li^2,3, Lu Han², Bingxiang Zhang¹, Yijin Ding¹, Zongpei Song¹, Ruining Zhang¹, Jishuai Zhang¹, Xian-Hui Wu¹.

Abstract

Chimeric antigen receptor (CAR) T therapy represents a form of immune cellular therapy with clinical efficacy and a specific target. A typical chimeric antigen receptor (CAR) construct consists of an antigen binding domain, a transmembrane domain, and a cytoplasmic domain. Nanobodies have been widely applied as the antigen binding domain of CAR-T due to their small size, optimal stability, high affinity, and manufacturing feasibility. The nanobody-based CAR structure has shown a proven function in more than ten different tumor-specific targets. After being transduced in Jurkat cells, natural killer cells, or primary T cells, the resulting nanobody-based CAR-T or CAR-NK cells demonstrate anti-tumor effects both in vitro and in vivo. Interestingly, anti-BCMA CAR-T modulated by a single nanobody or bi-valent nanobody displays comparable clinical effects with that of single-chain variable fragment (scFv)-modulated CAR-T. The application of nanobodies in CAR-T therapy has been well demonstrated from bench to bedside and displays great potential in forming advanced CAR-T for more challenging tasks.

Entities: CellLine Chemical Disease Gene Species

Keywords: BCMA; CAR-T; VHH; nanobody

Mesh：

Substances：

Year: 2021 PMID： 33567640 PMCID： PMC7914546 DOI： 10.3390/biom11020238

Source DB: PubMed Journal: Biomolecules ISSN： 2218-273X

110 in total

1. CD28 costimulation provided through a CD19-specific chimeric antigen receptor enhances in vivo persistence and antitumor efficacy of adoptively transferred T cells.

Authors: Claudia M Kowolik; Max S Topp; Sergio Gonzalez; Timothy Pfeiffer; Simon Olivares; Nancy Gonzalez; David D Smith; Stephen J Forman; Michael C Jensen; Laurence J N Cooper
Journal: Cancer Res Date: 2006-11-15 Impact factor: 12.701

Review 2. The emergence of T-bodies/CAR T cells.

Authors: Zelig Eshhar; Tova Waks; Gideon Gross
Journal: Cancer J Date: 2014 Mar-Apr Impact factor: 3.360

3. Revisiting Interleukin-12 as a Cancer Immunotherapy Agent.

Authors: Pedro Berraondo; Iñaki Etxeberria; Mariano Ponz-Sarvise; Ignacio Melero
Journal: Clin Cancer Res Date: 2018-03-16 Impact factor: 12.531

4. Armored Inducible Expression of IL-12 Enhances Antitumor Activity of Glypican-3-Targeted Chimeric Antigen Receptor-Engineered T Cells in Hepatocellular Carcinoma.

Authors: Ying Liu; Shengmeng Di; Bizhi Shi; Honghong Zhang; Yi Wang; Xiuqi Wu; Hong Luo; Huamao Wang; Zonghai Li; Hua Jiang
Journal: J Immunol Date: 2019-05-29 Impact factor: 5.422

Review 5. Localized Interleukin-12 for Cancer Immunotherapy.

Authors: Khue G Nguyen; Maura R Vrabel; Siena M Mantooth; Jared J Hopkins; Ethan S Wagner; Taylor A Gabaldon; David A Zaharoff
Journal: Front Immunol Date: 2020-10-15 Impact factor: 7.561

6. Naturally occurring antibodies devoid of light chains.

Authors: C Hamers-Casterman; T Atarhouch; S Muyldermans; G Robinson; C Hamers; E B Songa; N Bendahman; R Hamers
Journal: Nature Date: 1993-06-03 Impact factor: 49.962

7. 4-1BB costimulation ameliorates T cell exhaustion induced by tonic signaling of chimeric antigen receptors.

Authors: Adrienne H Long; Waleed M Haso; Jack F Shern; Kelsey M Wanhainen; Meera Murgai; Maria Ingaramo; Jillian P Smith; Alec J Walker; M Eric Kohler; Vikas R Venkateshwara; Rosandra N Kaplan; George H Patterson; Terry J Fry; Rimas J Orentas; Crystal L Mackall
Journal: Nat Med Date: 2015-05-04 Impact factor: 53.440

Review 8. CAR T Cells for Solid Tumors: New Strategies for Finding, Infiltrating, and Surviving in the Tumor Microenvironment.

Authors: Marina Martinez; Edmund Kyung Moon
Journal: Front Immunol Date: 2019-02-05 Impact factor: 7.561

9. A phase 1, open-label study of LCAR-B38M, a chimeric antigen receptor T cell therapy directed against B cell maturation antigen, in patients with relapsed or refractory multiple myeloma.

Authors: Wan-Hong Zhao; Jie Liu; Bai-Yan Wang; Yin-Xia Chen; Xing-Mei Cao; Yun Yang; Yi-Lin Zhang; Fang-Xia Wang; Peng-Yu Zhang; Bo Lei; Liu-Fang Gu; Jian-Li Wang; Nan Yang; Ru Zhang; Hui Zhang; Ying Shen; Ju Bai; Yan Xu; Xu-Geng Wang; Rui-Li Zhang; Li-Li Wei; Zong-Fang Li; Zhen-Zhen Li; Yan Geng; Qian He; Qiu-Chuan Zhuang; Xiao-Hu Fan; Ai-Li He; Wang-Gang Zhang
Journal: J Hematol Oncol Date: 2018-12-20 Impact factor: 17.388

Review 10. Engineering CAR-T Cells for Next-Generation Cancer Therapy.

Authors: Mihe Hong; Justin D Clubb; Yvonne Y Chen
Journal: Cancer Cell Date: 2020-07-30 Impact factor: 31.743

7 in total

1. Development and comparison of three ⁸⁹Zr-labeled anti-CLDN18.2 antibodies to noninvasively evaluate CLDN18.2 expression in gastric cancer: a preclinical study.

Authors: Guilan Hu; Wenjia Zhu; Yu Liu; Yuan Wang; Zheng Zhang; Shikun Zhu; Wenwen Duan; Peipei Zhou; Chao Fu; Fang Li; Li Huo
Journal: Eur J Nucl Med Mol Imaging Date: 2022-03-26 Impact factor: 10.057

2. INDI-integrated nanobody database for immunoinformatics.

Authors: Piotr Deszyński; Jakub Młokosiewicz; Adam Volanakis; Igor Jaszczyszyn; Natalie Castellana; Stefano Bonissone; Rajkumar Ganesan; Konrad Krawczyk
Journal: Nucleic Acids Res Date: 2022-01-07 Impact factor: 16.971

Review 3. Engineered NK Cells Against Cancer and Their Potential Applications Beyond.

Authors: Maria Karvouni; Marcos Vidal-Manrique; Andreas Lundqvist; Evren Alici
Journal: Front Immunol Date: 2022-02-15 Impact factor: 7.561

Review 4. V_HH Structural Modelling Approaches: A Critical Review.

Authors: Poonam Vishwakarma; Akhila Melarkode Vattekatte; Nicolas Shinada; Julien Diharce; Carla Martins; Frédéric Cadet; Fabrice Gardebien; Catherine Etchebest; Aravindan Arun Nadaradjane; Alexandre G de Brevern
Journal: Int J Mol Sci Date: 2022-03-28 Impact factor: 5.923

The Application of Nanobody in CAR-T Therapy.

1. CD28 costimulation provided through a CD19-specific chimeric antigen receptor enhances in vivo persistence and antitumor efficacy of adoptively transferred T cells.

Review 2. The emergence of T-bodies/CAR T cells.

3. Revisiting Interleukin-12 as a Cancer Immunotherapy Agent.

4. Armored Inducible Expression of IL-12 Enhances Antitumor Activity of Glypican-3-Targeted Chimeric Antigen Receptor-Engineered T Cells in Hepatocellular Carcinoma.

Review 5. Localized Interleukin-12 for Cancer Immunotherapy.

6. Naturally occurring antibodies devoid of light chains.

7. 4-1BB costimulation ameliorates T cell exhaustion induced by tonic signaling of chimeric antigen receptors.

Review 8. CAR T Cells for Solid Tumors: New Strategies for Finding, Infiltrating, and Surviving in the Tumor Microenvironment.

9. A phase 1, open-label study of LCAR-B38M, a chimeric antigen receptor T cell therapy directed against B cell maturation antigen, in patients with relapsed or refractory multiple myeloma.

Review 10. Engineering CAR-T Cells for Next-Generation Cancer Therapy.

1. Development and comparison of three ⁸⁹Zr-labeled anti-CLDN18.2 antibodies to noninvasively evaluate CLDN18.2 expression in gastric cancer: a preclinical study.

2. INDI-integrated nanobody database for immunoinformatics.

Review 3. Engineered NK Cells Against Cancer and Their Potential Applications Beyond.

Review 4. V_HH Structural Modelling Approaches: A Critical Review.

Review 5. Revolution of CAR Engineering For Next-Generation Immunotherapy In Solid Tumors.

Review 6. Therapeutic targets and biomarkers of tumor immunotherapy: response versus non-response.

Review 7. CAR-T cell potency: from structural elements to vector backbone components.

Review 2. The emergence of T-bodies/CAR T cells.

Review 5. Localized Interleukin-12 for Cancer Immunotherapy.

Review 8. CAR T Cells for Solid Tumors: New Strategies for Finding, Infiltrating, and Surviving in the Tumor Microenvironment.

Review 10. Engineering CAR-T Cells for Next-Generation Cancer Therapy.

Review 3. Engineered NK Cells Against Cancer and Their Potential Applications Beyond.

Review 4. VHH Structural Modelling Approaches: A Critical Review.

Review 5. Revolution of CAR Engineering For Next-Generation Immunotherapy In Solid Tumors.

Review 6. Therapeutic targets and biomarkers of tumor immunotherapy: response versus non-response.

Review 7. CAR-T cell potency: from structural elements to vector backbone components.

Review 4. V_HH Structural Modelling Approaches: A Critical Review.